automation in large urban power distribution system rajamani.pdf · automation in large urban power...

Automation in Large Urban Power Distribution System

CENTRAL TECHNICAL SERVICES, RELIANCE ENERGY LIMITED, MUMBAI

Dr. K Rajamani

• Need for Automation and Current trends

• Automation Systems and Functionality

• REL Experience

• Best Practices

Generation

• Bottleneck is here • Last mile reliability • Huge no. of elements • Theft • Revenue collection

Transmission

Distribution

Glamorous

Load Demand in Mega cities

2006

Pea

k Lo

ad (

MW

)

2500 4200 656010380 13141

16680

33600

64300

Mumbai London Chicago HK NY Shanghai Osaka Tokyo

What is Distribution Automation ?• “A set of technologies that enable an electric util ity to remotely

monitor, coordinate and operate distribution compon ents in a real-time mode from remote locations” - (IEEE definition)

• DA is an umbrella concept that embraces all the oth er real-time and operational functions for the distribution netw ork

Distribution Management (DMS)

Meter Reading(AMR)

Substation Automation (SA)

FeederAutomation (FA)

With... …you receive ..which results to

What you get out of Automation

Remote Control Fast outage / fault management

Shorter outage times

Measurements More information from network

Accurate network analysis

Fault indication Faster fault management

Shorter outage times

Protection Actual current seen by relay

PM analysis

Quality monitoring Information on problem areas

Improved quality of power

Condition monitoring

Service information of switches

Reduced maintenance intervals

Decision

Control

MonitoringManual &

Decentralised

Centralised

Decentralised

Centralised

Centralised

Decentralised

Centralised

Centralised

Centralised

PAST

(Manual RMU) (Automated RMU)(Manual RMU)

PRESENTSCADA

FUTURESCADA & DMS

Automation Roadmap

Automation Systems and Functionality

Automation Systems – Distribution Utilities

• SCADA

• Distribution Management System (DMS)

• Geographical Information System (GIS)

• Automatic Meter Reading System (AMR)

• Outage Management System (OMS)

• Communication Systems

• Billing and Business Process Automation

• Enterprise Resource Planning (ERP) Systems

• Supervisory Control & Data Acquisition Systems (SCA DA)– Develop and integrate Real-time SCADA systems

• Distribution Management Systems (DMS)– Solutions for DMS systems for distribution utilitie s for

faster Fault Location, Isolation and Supply Restora tion (FLISR) and reduction in downtime

• Geographical Information Systems (GIS)– GIS systems for asset management

Automation Systems – Description

• Automatic Meter Reading System

– Solutions for AMR systems for energy auditing– High end consumer load profile monitoring– Integrated with billing and other processes to redu ce

cycle time

• Communication System

– Fibre Optic (SCADA / partly DMS on Fibre)– Mobile – CDMA / GSM / GPRS (partly DMS on CDMA)– VSAT / Low Power Radio– Wimax (Pilot under progress)

Automation Systems – Description

SCADA/DMS Functionalities• Monitoring and Control of EHV and HV network

• Fault Location, Isolation and Service Restoration ( FLISR)– To determine the location of feeder faults– Recommend actions to isolate the faulty sections & restore

supply to the healthy sections of feeders

• Voltage and VAR Control – For optimal switching of Capacitor banks and OLTC c ontrol

Typical Integrated Solution – Distribution Utility

SCADA/DMS

CIS(Customer

Information System) GIS

AMR(Automatic Meter Reading System)

ERP system(SAP R/3)

OutageData

Trouble tickets

Maps, Equipment Data

Load Profiles

CustomerData

System & Equipment faults, Switching counts

Equipment Data

Billing & Settlement

Status data

Present Operations

Circuit Breaker

R/S feederR/S feeder

Normally open point

RMU / DT

R/S feeder

Circuit Breaker

R/S feeder

Normally open point

Supply restored manually for part network typical

time 15 – 20 mins

Circuit Breaker

R/S feederR/S feeder

Normally open point

RMU / DT

CB Trips on fault

Circuit Breaker

R/S feederR/S feeder

Normally open point now closed manually

Additional network restored

manually, total time 40 mins

Faulty Section

Automation Philosophy

Circuit Breaker

R/S feederR/S feeder

Remote operation to close switch

Additional network

restored, total time 11-18 mins

Circuit Breaker

R/S feederR/S feeder

Normally open point

Automated RMU / DT with FPI

Circuit Breaker

R/S feederR/S feeder

Normally open point

FPI indicates passage of

fault current

CB Trips

Circuit Breaker

R/S feederR/S feeder

Normally open point

Remote Operation of RMU Switch &

Partial Restoration of supply –

typically 1-2 mins

Post RMU, FPI & Automation Scenario

11 KV 11 KV

415 V

DMS

Total Fault Restoration time

reduced from 65 to 35 minutes

REL Experience

REL MUMBAI DISCOM

� Total load served – 1400 MW

� Number of consumers – 25 lacs

� Area of supply - 384 sq. km

� No of Receiving stations – 61 (22kV or 33kV / 11 kV)

� No of substations – 4900 (11 kV / 415 V)

� Average availability (ASAI) – 99.92%

� Distribution loss (T & D) – 12%

� 33kV Cable Network – 400km

� 11kV Cable Network – 2400km.

Approach

SCADASCADASCADASCADA

DMS DMS DMS DMS ApplicationsApplicationsApplicationsApplications

Integration with Integration with Integration with Integration with other business other business other business other business

processesprocessesprocessesprocesses

Network power flowSwitching procedure management

Fault isolation & service restorationVolt /VAR control

Capacitor bank control

Centralised data acquisition andControl / intelligent load shedding /

energy balance/Alarm & event handling/Historian/ Trending/Reporting

Integration with other systems (ERP / GIS /

AMR)

Priority

• System integration and data engineering– DIAS/OPC DMS/GIS Interface

DMS Implementation in REL

• Automate 20% of RMU (1000 out of 5000 substations)

• Installation of FRTU

• Integration of RMU with FRTU

• Selection of Communication Technology 150 Substations – CDMA; 20 Substations – Fibre

• System integration and data engineering

• Installation of Fault Passage Indicator

Fault Passage Indicator (FPI)

• Earth Fault Indicator for underground cables.

• Detects earth faults only and helps in locating faulty cable section.

• Phase to phase faults will not be detected.Majority(>70%) – Earth faults

• Composed of:- Sensor - Split core CBCT- Indicator

CBCT

Logic for Identification of faulty section with FPI

Conclusion: Fault is in the section between a glowing FPI and a Non glowing FPI

CB Trips

All FPIs glow

R/S feederR/S feeder

Normally open point

FPI shall not glowAutomated RMU

FPI indicates passage of

fault current

• Integrated view of Generation, Transmission and Dis tribution

• Centralized remote monitoring of network elements

• Centralized remote control of switches and transfor mers

• Reliable Islanding after grid collapse and Optimal load sheddingafter islanding

• Network reconfiguration and load transfer switching performed remotely for most situations.

• Centralized storage of event logs, fault analysis a nd report generation.

REL Mumbai Distribution System - Experience

• Real-time alarm on a network fault or abnormality

• Better assistance to field staff in pin-pointing fa ulty section by

utilizing FPIs at all DT stations ���� Reduction in time for fault

identification

• Interruption time reduced from 40 mins to 5-20 mins on an

average.

• Reduction in customer hour loss by 50%

• Improved power supply quality due to reduced test c harges.

• Equipment subjected to less stress ���� better equipment condition

REL Mumbai Distribution System - Experience

Effect of DMS is reflected in Customer Average Inte rruption Duration Index (CAIDI) apportioned to HT tripping

599,376

577,010

No. of consumers

50.24103Post DMS(Y-2007)

95. 16102Pre DMS(Y-2006)

CAIDI in minutes

No. of HT Trippings

Central Zone (Jul-Sep)

Reduction in CAIDI by 50%

Daily Operations at REL, Aarey BCC

• Tap changing operations from SCADA : 350 per day

• No. of breaker (switching) operations : 290 per day { 8700 operations per month – one of the highest

in the WORLD }

• No. of Isolator operations through DMS – 1000 per mo nth(During floods 120 operations per day!)

• Cable fault isolation

• Load transfer operation

• Capacitor switching in / off for power factor impro vement

Best Practices

Best Practice…General

• Phased Implementation– SCADA with Some Applications– Selected DMS Applications– Enterprise Integration

• Follow International Standards

• Flexible and Open Architecture

• Minimize Customization

• Disaster Recovery Capability

• No Single Point of Failure

• Selective Feeder Automation

• Establish Quality Indices Goals and Track Them

Best Practice…Operation Criteria for SCADA

• All Grid Substations Unmanned with Central Decision Making Processes

• Decision Making based on Real-Time Accurate and Consistent Information

• Remote Control of all Key Field Equipment Devices

• Selected Distribution Substations (11kV/415V) contr ol

• Monitoring of All Data Required to Support continge ncies

• Monitoring of Power System Equipment (condition monitoring)

• Remote Monitoring of protective relay data

Best Practice… Communication Criteria

• No Loss of Information due to Single Point Communic ation Failure

• Automatic Routing of Field Data to Active System in case of Communication Failure

• Transparent routing of users to active control syst em

• All communications on TCP/IP using standard protoco ls (i.e. IEC 104 )

• Maximum use of available bandwith for other uses su ch as video and voice transmission

What can go wrong?

• Overly ambitious goals – too many features

• Inadequate specification

• Unclear objectives

• Not ready with data to kick start the project

• Lack of know-how within organization

• Poor implementation (SCADA/DMS adaptation)

• Lack of training

• Primary equipment compatibility

SCADA

11 KV 11 KV

415 V

DMS100 MVA

20 MVA

33 kV

11 kV

220 kV

11kV VOLTAGE PROFILE

0

1

2

3

4

5

6

7

8

9

10

11

12

0:00:00 2:24:00 4:48:00 7:12:00 9:36:00 12:00:00 14:24:00 16:48:00 19:12:00 21:36:00 0:00:00

Time

Vol

tage

in k

V

(+) 2%

(-) 2%

Aarey BCC

DMS STATION MODEL

Thank You

Geographic Information System - GIS

GIS asset information integrated by other business processes

Customer Interface, Marketing, Logistics

Site selection, Routing

GIS

Outage Management SystemOptimalSwitching

SCADA

IVRCIS

Internet / Intranet

Network Analysis

Assets Management, Land Records, RoW

Work Management System

Planning, Engineering & Progress Monitoring

SAP Integration

O & M, Crew Dispatch and Inspections

Energy Audit

Metering Solutions – AMR Systems

Last Mile

Telephone / PLC

Telephone

Main Control Centre

Meter Interface Units

Master Data Concentrators

Sub – Data Concentrators

Information Portals

AMR systems for energy audit / billing / consumer profile monitoring

Typical System Architecture : SCADA/DMS

WAN (SDH)

MCC BCCMCC –BCC- RTU links

IEC 104 RTU

Front EndFront End

CDMAModem

ModemModem

Serial links 9600 Baud

(45)(15)(200)

Serial link 9600 Baud

(55) (55) Serial link 9600 Baud2 Mbit 2 Mbit

2Mbit

IEC 101 RTU

IEC 104

FRTU

CDMA Network

DAKC

MIDC HUB

MIDC SDH

BCC SDH

DMS FEP

2 Mbps Link

BCC

RMU RMU

FRTUFRTU

CDMA Modem

CDMA Modem

DMS Architecture

SCADA System

DAHANU TPS

220kV

11kV OUTGOING

33 kV

11 kV

TransmissionSCADA

DistributionSCADA

( 4 EHV Stations )

( 61 Rec. Stations )

� Load Shedding & Islanding Logic from Centralized Lo cation

� Redundant LAN

� Enhanced Communication System – Fault tolerant, Fast er,

scalable

� Centralized Control Concept for all Divisions

� IED Integration – Numerical Relays of all makes, Dig ital RTCC

� Inbuilt DMS Application extended to 11 kV Sub Trans mission

Network

� Data mining of SCADA database to unearth valuable i nformation

� Interface with other tools – GIS, SAP, CIS System

REL SCADA System - Highlights

Recorded Fault Current

Trip Indication

Conventional RTCC panel 600mm (W) x 600mm (D) x 2000mm (H)

Digital RTCC 250mm (W) x 100mm (D) x 300mm (H)

DIGITAL RTCC

SUBSTATION

Wireless Network

DAKC

MIDC HUB

MIDC SDH

BCC SDH

DMS FEP

2 Mbps Link

BCC

RMU

FRTU

Wireless LAN Switch

BTS

BTS

BTS

MCNMUMBAI

BA RING

MA RING

BTS – Base Station

BA Ring - Building Aggregation RingMA Ring – Main Aggregation Ring

MCN – Media Convergence Node

Antenna

Antenna

Wi Max Technology

Cost Per Substation for DMS Implementation

• Automated RMU supply and Installation - Rs. 12 lacs

(US$ 30,000)

• Automation including FRTU, Modem,

Hardware and software at Control centre - Rs . 2 lacs

(US$ 5,000)

COST OF AUTOMATION APPROXIMATELY

20% OF PRIMARY EQUIPMENT COST!

REL 220kV Network

DAHANU

GHODBUNDER

VERSOVA

AAREY

TATA -BORIVALI (GRID)

S S

GT#116.5/220kV

GT#216.5/220kV

GEN#1250MW

GEN#2250MW

MSEB -BOISAR (GRID)

REL’s ISLANDING & LOAD SHEDDING SCHEME

• REL islands from grid under following conditions:� Reverse power with under frequency (47.9Hz) � Steep fall in frequency ie. 49Hz + 0.5Hz/sec.

• Post islanding, load shedding is done to match load wi thavailable generation.

• Different load shedding schemes are implementeddepending on GT and tie line breaker status.

• Load shedding is done based on the set priority table.

• Real time tie line power flows, generator output and loa d are considered for load shedding.

REL 220kV Network

DAHANU

GHODBUNDER

VERSOVA

AAREY

TATA -BORIVALI (GRID)

S S

GT#116.5/220kV

GT#216.5/220kV

GEN#1250MW

GEN#2250MW

MSEB -BOISAR (GRID)

REL ISLANDED!

SCADA/DMS LAN

REDUNDANT APPLICATION SERVER

(SCADA/DMS/ICCP)

CORPORATE LAN & WEB SERVER

WORK STATION

DMS FEPREDUNDANT SCADA FEP

REDUNDANT

UDW SERVER

ROUTER

FIRE WALL

GIS GATEWAY